MOG as symmetry breaking in Scalar-Vector-Tensor gravity
Shahin Rouhani, Sohrab Rahvar
TL;DR
This paper proposes a gauge-invariant Scalar-Vector-Tensor gravity model that explains symmetry breaking at low temperatures, potentially altering cosmic evolution and naturally producing inflation, addressing dark matter issues.
Contribution
It introduces a gauge-invariant MOG framework that accounts for symmetry breaking, offering a novel approach to cosmological dynamics and inflation.
Findings
Proposes a gauge-invariant Scalar-Vector-Tensor gravity model
Suggests symmetry breaking at low temperatures influences universe evolution
Potential to naturally produce cosmological inflation
Abstract
The Modified Gravity Model (MOG) has been proposed as a solution to the dark matter problem, but it does not meet the gauge invariant condition. The aim of this work is to propose a gauge-invariant theory, which suggests that symmetry can break at a low temperature in the Universe, leading to the MOG theory. This theory has the potential to alter the dynamics of the early and late Universe and naturally produce cosmological inflation.
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Taxonomy
TopicsCosmology and Gravitation Theories · Geophysics and Gravity Measurements · Computational Physics and Python Applications